ANSI IEEE 1613A-2011 Environmental and Testing Requirements for Communications Networking Devices Installed in Electric Power Substations Amendment 1 Adding of one Definition dc po.pdf

1、 IEEE Standard Environmental and Testing Requirements for Communications Networking Devices Installed in Electric Power Substations Amendment 1: Adding of one Definition, dc power supply requirements (5.1), and Annex EHistory Sponsored by the Substations Committee IEEE 3 Park Avenue New York, NY 100

2、16-5997 USA 15 April 2011 IEEE Power +1 978 750 8400. Permission to photocopy portions of any individual standard for educational classroom use can also be obtained through the Copyright Clearance Center. Copyright 2011 IEEE. All rights reserved. ivIntroduction This introduction is not part of IEEE

3、Std 1613a-2011, IEEE Standard for Environmental and Testing Requirements for Communications Networking Devices Installed in Electric Power Substations, Amendment 1: Adding of one Definition, dc power supply requirements (5.1), and Annex EHistory. This amendment adds one new definition and new requir

4、ements for dc power supplies. The amendment also adds an Informative Annex E, which describes the history of the field events in the 1960s and 1970s that led to the creation of IEEE Std 37.90.1TM, upon which Clause 7 of this standard is based, IEEE Std C37.90.2TMupon which Clause 8 is based, and IEE

5、E Std C37.90.3TMupon which Clause 9 is based. Notice to users Laws and regulations Users of these documents should consult all applicable laws and regulations. Compliance with the provisions of this standard does not imply compliance to any applicable regulatory requirements. Implementers of the sta

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12、for errata periodically. Copyright 2011 IEEE. All rights reserved. vInterpretations Current interpretations can be accessed at the following URL: http:/standards.ieee.org/reading/ieee/interp/ index.html. Patents Attention is called to the possibility that implementation of this standard may require

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15、ressly advised that determination of the validity of any patent rights, and the risk of infringement of such rights, is entirely their own responsibility. Further information may be obtained from the IEEE Standards Association. Copyright 2011 IEEE. All rights reserved. viParticipants At the time thi

16、s IEEE standard was completed, the Working Group had the following membership: John T. Tengdin, Chair H. Lee Smith, Vice Chair William J. Ackerman Robert Beresh Michael Dood Kenneth Fodero Alberto Gutierrez William Higinbotham Chris Huntley Marc Lacroix Craig Preus Mario Ranieri The following member

17、s of the individual balloting committee voted on this standard. Balloters may have voted for approval, disapproval, or abstention. William J. Ackerman Satish Aggarwal James Ariza Ali Al Awazi John Banting Thomas Barnes Paul Barnhart Hugh Barrass Robert Beresh William Bloethe Oscar Bolado Steven Broc

18、kschink Gustavo Brunello Jeffrey Burnworth William Byrd Suresh Channarasappa Arvind K. Chaudhary Keith Chow Michael Coddington Jerry Corkran R. W. Corlew Carlo Donati Gary Donner Michael Dood Gary Engmann Kenneth Fodero Jeffrey Gilbert Edwin Goodwin Randall Groves Lee Herron Gary Heuston Steven Hodd

19、er Dennis Holstein David Horvath C. Huntley R. Jackson Lars Juhlin Yuri Khersonsky Hermann Koch Boris Kogan Jim Kulchisky Saumen Kundu Marc Lacroix Chung-Yiu Lam Greg Luri Wayne W. Manges Michael Maytum John McDonald Gary Michel Georges Montillet Jerry Murphy R. Murphy Bruce Muschlitz Michael S. New

20、man Gary Nissen Chris Osterloh Lorraine Padden Percy Pool Craig Preuss R. Ray Charles Rogers Miriam Sanders Bartien Sayogo Thomas Schossig Sam Sciacca Gil Shultz Mark Simon Veselin Skendzic H. Lee Smith James Smith Jerry Smith John Spare Gary Stoedter John Tengdin John Toth Joe Uchiyama Eric Udren J

21、ohn Vergis James WilsonCopyright 2011 IEEE. All rights reserved. viiWhen the IEEE-SA Standards Board approved this standard on 2 February 2011, it had the following membership.Robert M. Grow, Chair Richard H. Hulett, Vice Chair Steve M. Mills, Past Chair Judith Gorman, Secretary Karen Bartleson Vict

22、or Berman Ted Burse Clint Chaplin Andy Drozd Alexander Gelman Jim Hughes Young Kyun Kim Joseph L. Koepfinger* John Kulick David J. Law Hung Ling Oleg Logvinov Ted Olsen Ronald C. Petersen Thomas Prevost Jon Walter Rosdahl Sam Sciacca Mike Seavey Curtis Siller Don Wright *Member Emeritus Also include

23、d are the following nonvoting IEEE-SA Standards Board liaisons: Richard DeBlasio, DOE Representative Michael Janezic, NIST Representative Satish Aggarwal, NRC Representative Julie Alessi IEEE Standards Program Manager, Document Development Soo H. Kim IEEE Standards Program Manager, Technical Program

24、 Development Copyright 2011 IEEE. All rights reserved. viiiContents 2. Definitions and word usage 2 5. Insulation tests 2 5.1 DC rated control power inputs. 2 Annex E (informative) History. 3 Annex F (informative) Bibliography 11 Copyright 2011 IEEE. All rights reserved. 1IEEE Standard for Environme

25、ntal and Testing Requirements for Communications Networking Devices Installed in Electric Power Substations Amendment 1: Adding of one Definition, dc power supply requirements (5.1), and Annex EHistory IMPORTANT NOTICE: This standard is not intended to ensure safety, security, health, or environment

26、al protection. Implementers of the standard are responsible for determining appropriate safety, security, environmental, and health practices or regulatory requirements. This IEEE document is made available for use subject to important notices and legal disclaimers. These notices and disclaimers app

27、ear in all publications containing this document and may be found under the heading “Important Notice” or “Important Notices and Disclaimers Concerning IEEE Documents.” They can also be obtained on request from IEEE or viewed at http:/standards.ieee.org/IPR/disclaimers.html. NOTEThe editing instruct

28、ions contained in this amendment define how to merge the material contained therein into the existing base standard and its amendments to form the comprehensive standard. The editing instructions are shown in bold italic. Four editing instructions are used: change, delete, insert, and replace. Chang

29、e is used to make corrections in existing text or tables. The editing instruction specifies the location of the change and describes what is being changed by using strikethrough (to remove old material) and underscore (to add new material). Delete removes existing material. Insert adds new material

30、without disturbing the existing material. Insertions may require renumbering. If so, renumbering instructions are given in the editing instruction. Replace is used to make changes in figures or equations by removing the existing figure or equation and replacing it with a new one. Editing instruction

31、s, change markings, and this NOTE will not be carried over into future editions because the changes will be incorporated into the base standard. IEEE Std 1613a-2011 IEEE Standard for Environmental and Testing Requirements for Communications Networking Devices Installed in Electric Power Substations

32、Amendment 1: Adding of one Definition, dc power supply requirements (5.1), and Annex EHistory Copyright 2011 IEEE. All rights reserved. 22. Definitions and word usage Insert the following definition (with footnote) in alphabetical order: static terminal: See solid state relay or static relay.15. Ins

33、ulation tests 5.1 DC rated control power inputs Add the following sentence at the beginning of 5.1, before Table 1: DC power supplies shall be designed such that they do not apply a ground on either the positive or negative terminal of the station battery connection. It shall be possible for either

34、the positive or negative of the station battery inputs to be externally connected to the case ground, or other common ground, without damage. Insert new informative Annex E and renumber the remaining annex accordingly. 1These terms can be found in The IEEE Standards Dictionary: Glossary of Terms & D

35、efinitions. It is available at http:/shop.ieee.org/. IEEE Std 1613a-2011 IEEE Standard for Environmental and Testing Requirements for Communications Networking Devices Installed in Electric Power Substations Amendment 1: Adding of one Definition, dc power supply requirements (5.1), and Annex EHistor

36、y Copyright 2011 IEEE. All rights reserved. 3Annex E (informative) History Events leading to the development of IEEE Std 1613TM-2003 and its predecessor standards (IEEE Std C37.90TM, IEEE Std C37.90.1TM, IEEE Std C37.90.2TM, and IEEE Std C37.90.3TM) Introduction Until the invention of the transistor

37、 in 1948, power system control and protective relays were almost exclusively electro-mechanical. There were a few special applications, such as automatic synchronizing of ac generators, that used vacuum tubes but these were clearly the exceptions. The physical structures of these electro-mechanical

38、relays were robust, with current and voltage coils designed to pass one minute power frequency production tests at 2000 volts. In addition, they were required to pass design (type) impulse tests at 5 kV. Insulation failures were rare. The most common failure modes in the field were dirty contacts, w

39、orn or dirty bearings (on induction cup or induction disc relays), or incorrect settings. Routine preventive maintenance was scheduled to address these problems. A few years after the invention of the transistor in 1948, some transistor designs became available that could withstand the typical extre

40、me temperatures in electric utility substations. Their capability as solid state amplifiers was very attractive to the designers of protective relays, as the search was always on for more sensitive and faster, yet secure, products for transmission line relaying. These products -“solid state relays”

41、(or sometimes called “static terminals”) - were often applied for EHV (345 kV, 500 kV, and 765 kV) transmission line protection to reduce fault clearing times. Relays for other functions such as transformer differential protection and automatic synchronizing also used transistors. The high voltage s

42、ubstation environment In the 1960s, the semiconductor components (e.g. transistors) in some of these solid state relays installed in the relay houses or control rooms of EHV substations were failing, and apparently not in connection with faults on a nearby EHV line or bus. As early as 1961, AIEE B15

43、, IEEE B16, and ISA B17 conference papers were published which described the transients generated in these substations when EHV disconnect switches were closed or opened. These transients, now referred to as the oscillatory SWC (surge withstand capability) transients, were found and recorded on curr

44、ent transformers (CTs), voltage transformers (VTs) and control cables in the high voltage yard. Note: It was found that switch closings create more severe transients than switch openings due to the inrush current when energizing a bus sections capacitance to ground and the capacitance of its connect

45、ed apparatus (i.e. bushings, coupling capacitor potential devices, and grading capacitors in EHV circuit breakers). In some cases, a transient ground potential rise of over 40 kV was measured in adjacent cable trenches. In a 1977 paper, “The Nature and Source of Transient Surges” B19, W. E. Kotheime

46、r wrote: “Sources of transients” “The transient surges found in protective and control circuits originate in high voltage power circuits and also in low voltage and auxiliary power and control circuits. For the purpose of this paper, these are classified simply as high voltage sources and low voltag

47、e sources.” IEEE Std 1613a-2011 IEEE Standard for Environmental and Testing Requirements for Communications Networking Devices Installed in Electric Power Substations Amendment 1: Adding of one Definition, dc power supply requirements (5.1), and Annex EHistory Copyright 2011 IEEE. All rights reserve

48、d. 4“A. High voltage sources” “The high voltage power circuits in an electric power substation consist of all the high voltage buses and power circuits, the primary circuits of current and voltage transformers, the line-to-ground paths of all capacitor devices such as capacitor voltage transformers

49、(CVTs), carrier couplers and apparatus bushings, and include the station ground grid and all equipment grounds. They form a large cage-like structure as shown in Figure E.1 (Figure 1 of B19).” Figure E.1The high voltage structure “Note that a protective or control cable may traverse through this region which, during disturbances, can be a region of intense transient electromagnetic fields. These fields induce or couple the transient surges into